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Identification and visualisation of microplastics by Raman mapping
Analytica Chimica Acta2019
233 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Zahra Sobhani,
Zahra Sobhani,
Zahra Sobhani,
Zahra Sobhani,
Zahra Sobhani,
Zahra Sobhani,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Zahra Sobhani,
Zahra Sobhani,
Cheng Fang,
Zahra Sobhani,
Md. Al Amin,
Cheng Fang,
Zahra Sobhani,
Zahra Sobhani,
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Md. Al Amin,
Zahra Sobhani,
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Mallavarapu Megharaj,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Md. Al Amin,
Mallavarapu Megharaj,
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Cheng Fang,
Ravi Naidu
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Mallavarapu Megharaj,
Mallavarapu Megharaj,
Mallavarapu Megharaj,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Ravi Naidu
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Mallavarapu Megharaj,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Cheng Fang,
Ravi Naidu
Ravi Naidu
Cheng Fang,
Ravi Naidu
Cheng Fang,
Mallavarapu Megharaj,
Ravi Naidu
Cheng Fang,
Cheng Fang,
Ravi Naidu
Cheng Fang,
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Mallavarapu Megharaj,
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Ravi Naidu
Summary
Researchers demonstrated that Raman mapping can identify and visualize microplastics within soil and sand samples with minimal sample preparation. The technique successfully detected various polymer types against complex natural backgrounds without requiring dyes or destructive processing. The study presents Raman mapping as a practical, non-destructive analytical tool for studying microplastic distribution in environmental matrices like soil.
Recently, microplastics (MP) have emerged as global contaminants of serious concern to human and ecological health. However, identification and visualisation of MP are still a challenge, whether from wastewater, oceans, sediment or soil. Particularly when MP are mapped to visualise their distribution, the background signal from sediment and soil might be high and shield the MP signal from the analysis. Raman has recently received increasing attention, as the complementary spectrum of infrared (IR), because it can overcome the drawbacks of IR analysis including water interference, low lateral resolution and a complex spectrum. Here we show that Raman can identify and visualise MP from a soil/sand background, with almost no sample preparation, no dye, no destruction of the sample and no interference from water/organic matter/fluorescence background signals as well. By mapping image via their characteristic and fingerprint peaks, MP including polystyrene (PS), polyethylene terephthalate (PET), polyethylene (PE), polyvinyl chloride (PVC) and polypropylene (PP) can be individually identified and visualised. The lateral resolution along the focal plane is 1 μm/pixel to catch small MP down to 1 μm.